F1 will see a complete change in engine regulations in 2014, and we're having a closer look at what that means exactly
Why not connect an MGU/electric-compressor (supercharger) to the engine. It would work like a generator and harvest energy at high revs and work like a compressor to boost the engine at low revs...wuzak wrote:What's the point of an electric compressor without an elecric turbine to power it?Blackout wrote:Bring back the 2006-2013 V8, update them with modern technologies, add an electric compressor that uses ERS power exlusively and boosts the V8 at the lower revs only. (why not: remove two cylinders)
That way you keep the high revs, the sound and the costs under control : P
It will just reduce the amount of stored energy that can be used for the MGUK, since the only stored energy will have to come from the MGUK.
Good point, I do know some aftermarket engine management systems use the rev logic I mentioned to pull timing on cars without wheel speed sensors.Brian Coat wrote:
Concerning the MGU-H traction idea, leaving aside the legality discussion, the response could be quite/too slow due to the transport delays in system?
You'd not be recovering wasted energy - instead you would just be burning fuel to power the ERS, which then powers the compressor. A lighter system woudl be to directly drive the compressor through a variable speed drive.Blackout wrote:Why not connect an MGU/electric-compressor (supercharger) to the engine. It would work like a generator and harvest energy at high revs and work like a compressor to boost the engine at low revs...
I don't think this would work unless you took gear ratios into account. In which case it would be strictly against the rules.1158 wrote:I had a thought today about the possibility of traction control via the Turbo/MGUH combo. It wouldn't use wheel speed sensors or gps or any of that as it would be illegal but an idea for a way around it hit me. The engine designers know how quickly these engines rev. If the software sees revs rising faster than a certain value could the MGUH not be directed to harvest more energy from the turbo thereby controlling/limiting boost/power and thus wheelspin?
Can the MUG-K be used to harvest power under acceleration? I thought read that this wasn't the case but I can't find it anywhere and I could be just making that up.henry wrote:I don't think this would work unless you took gear ratios into account. In which case it would be strictly against the rules.1158 wrote:I had a thought today about the possibility of traction control via the Turbo/MGUH combo. It wouldn't use wheel speed sensors or gps or any of that as it would be illegal but an idea for a way around it hit me. The engine designers know how quickly these engines rev. If the software sees revs rising faster than a certain value could the MGUH not be directed to harvest more energy from the turbo thereby controlling/limiting boost/power and thus wheelspin?
9.3 Traction control :
No car may be equipped with a system or device which is capable of preventing the driven wheels from spinning under power or of compensating for excessive torque demand by the driver.
Any device or system which notifies the driver of the onset of wheel spin is not permitted.
However, I think that if instead of measuring the acceleration of the engine you measured the rate of change of acceleration it might be possible to detect wheelspin. My reasoning is that I think that as the car accelerates its rate of acceleration decreases, so if you detect an increased of rate of acceleration it probably implies wheelspin and a decrease of power is called for. If this theory is correct you might apply it to the control circuitry for the MGU-K, away from the SECU so not so obvious. It would still be against the rules but maybe it could be justified as protecting the PU from unwanted transients.
I don't think there is any restriction on when the MGU-K can generate. In fact I have seen it said that The ICE drives the MGU-K to charge the ES on the way to the start.1158 wrote:
Can the MUG-K be used to harvest power under acceleration? I thought read that this wasn't the case but I can't find it anywhere and I could be just making that up.
I think it would def be against the spirit of the rules but same can be said for flexible body work/wings and a litany of other items. I should have explained it a bit better but yeah I was speaking of using the method you brought up. The EMS software I was speaking of does that. Although I wonder if the software would be able to use the gear ratios to calculate what the engine acceleration should be.
I think the software side of it is doable. I just wonder if the ERS would be able to react fast enough to help control the wheel spin.
Define "precise"?a1b2i3r45 wrote:Can anybody provide a precise layout of the Honda engine?
@henry @1158henry wrote:However, I think that if instead of measuring the acceleration of the engine you measured the rate of change of acceleration it might be possible to detect wheelspin. My reasoning is that I think that as the car accelerates its rate of acceleration decreases, so if you detect an increased of rate of acceleration it probably implies wheelspin and a decrease of power is called for. If this theory is correct you might apply it to the control circuitry for the MGU-K, away from the SECU so not so obvious. It would still be against the rules but maybe it could be justified as protecting the PU from unwanted transients.
Brian Coat wrote:"The engine thread is close to 500 pages so I'm not prepared to go back and look."
Good point!!
Threads on sub-topics would help; or use of those that already exist.
